When using shaking tables for gold beneficiation, the fineness of grinding is a critical factor. The optimal particle size range for shaking tables is typically between 0.074 mm and 2 mm.

Neither Too Coarse Nor Too Fine

Grinding too coarsely: Gold particles remain attached to the waste rock; since they cannot be effectively liberated, the gold cannot be successfully recovered.

Grinding too finely: This generates an excessive amount of "slimes." These fine particles interfere with the separation process and can carry away minute gold grains, resulting in recovery losses.

Varying Conditions, Varying Requirements

Standard Operations: Grinding fineness is generally controlled within the 0.074–2 mm range.

Recovery of Fine Gold: This requires finer grinding—typically between 0.074 mm and 0.5 mm—to maximize recovery rates.

Optimal Particle Size Depends on the Ore

Ultimately, the most suitable grinding fineness is determined by the specific characteristics of the ore itself. For instance, ores with a loose structure may require finer grinding, while ores containing other heavy minerals may necessitate adjustments to the fineness to ensure the complete liberation of the gold.

Consequently, there is no single "one-size-fits-all" standard. In actual production practice, it is essential to conduct beneficiation tests to empirically determine the optimal grinding fineness, thereby ensuring the efficient recovery of gold.